Recording medium holder having one or more recording mediums

ABSTRACT

A recording medium holder enables a user to easily find a desired recording medium from recording mediums that the user manages. The recording medium holder includes a recording medium holding unit for holding a plurality of recording mediums, a liquid crystal displaying unit for displaying each of the plurality of recording mediums held in the recording medium holding unit by an icon, and an information displaying unit for displaying information of a recording medium that corresponds to an icon clicked in the liquid crystal displaying unit, the information including ID information, title information, index information, and other information. The information is read out from the recording medium at a first click, and from a storing unit at a second click and after.

This application is a divisional application of U.S. patent applicationSer. No. 10/602,590, filed Jun. 25, 2003 now U.S. Pat. No. 7,093.049.

This application is based on an application No. 2002-188106 filed inJapan, the content of which is hereby incorporated by reference.

BACKGROUND OF THE INVENTION

(1) Field of the Invention

The present invention relates to a holding apparatus that holdsrecording mediums for storing information.

(2) Description of the Prior Art

Recording mediums such as flexible disks (FDs) have been utilized tostore digital information.

In order that users can easily see what digital information is stored ina FD, a label, which shows such information as titles and indexindicating content of digital information stored in the FD, is attachedto an outer surface of the FD. Thus, users can find a desired FD by thelabel attached thereto.

With the reduced size of recording mediums, however, the size of labelsto be attached thereto has become increasingly small. As a result, suchproblems have been noted that the label is not large enough to showsufficient information, and that the recording medium is too small tohave a label attached thereto.

As one solution to the above problems, Japanese published PatentApplication No. H02-115996 discloses a technique for identifying a PCcard by information about content indicated in a display mounted on asurface of the card.

(Prior Art 1)

Japanese published Patent Application No. H02-115996

In addition, Japanese published Patent Application No. H04-367090discloses a technique for displaying data such as titles in a liquidcrystal display (LCD) unit mounted on a memory card. Both of the abovetechniques use displays mounted on cards in place of labels, and haveinformation about the content shown therein.

(Prior Art 2)

Japanese published Patent Application No. H04-367090

Further, Japanese published Patent Application No. 2001-101356 disclosesa technique for displaying additional information such as stored imagesand dates, which are stored in a PC card, in an LCD mounted on a PC cardadapter.

(Prior Art 3)

Japanese published Patent Application No. 2001-101356

Moreover, Japanese published Patent Application No. 2000-29998 disclosesa recording and reproducing device to which a plurality of memory cardscan be attached. The recording and reproducing device includes adisplaying unit for showing contents of an active memory card. Inaddition, Japanese published Patent Application No. 2000-32582 disclosesa headphone system where a plurality of memory cards are contained in aheadband part having a changer mechanism for selecting one of theplurality of memory cards and reproducing contents. In three of theabove techniques, a holder that holds recording mediums display contentsof the recording mediums.

(Prior Art 4)

Japanese published Patent Application No. 2000-29998

(Prior Art 5)

Japanese published Patent Application No. 2000-32582

While the problem regarding attaching labels on the recording mediumscan be solved according to the above listed conventional arts, however,a problem is still noted that it becomes increasingly difficult for theusers to find the desired recording medium as the number of recordingmediums that each user owns increases.

SUMMARY OF THE INVENTION

An object of the present invention is to solve the above noted problemand to provide a recording medium holder and an electronic card systemthat enable an easy search for a recording medium desired by a userregardless of the number of recording mediums that the user owns.

The present invention relates to a recording medium holder that enablesan efficient and safe management of a plurality of recording mediums,and aims to display information safely even when the information storedin the recording mediums is secret. The recording medium holder includesa unit operable to display contents of the recording mediums so that theuser can immediately find a desired recording medium when the user ownsmore than one recording medium. The recording medium holder alsoincludes a unit operable to display the contents of the recordingmediums only when the displaying of the contents of the recordingmediums is allowed if the contents of the recording mediums are secret.

The recording medium holder includes a recording medium holding unit forholding a plurality of recording mediums, a liquid crystal displayingunit for displaying each of the plurality of recording mediums held inthe recording medium holding unit by an icon, and an informationdisplaying unit for displaying information of a recording medium thatcorresponds to an icon clicked in the liquid crystal displaying unit,the information including ID information, title information, indexinformation, and such. The information is read out from the recordingmedium at a first click, and from a storing unit at a second click andafter.

The present invention also relates to an electronic card systemincluding more than one card and an extracting apparatus that enablesthe user to check contents of cards without inserting a card into anapparatus and to extract a specific card out of the more than one card.According to conventional arts, it is difficult to find a desired cardfrom the more than one card when the number of cards to be managedincreases. For example, it takes time and effort to find a card havingthe smallest disk space because the user cannot determine the disk spacewithout inserting the card into an apparatus such as a personalcomputer. As explained above, it is difficult to find a card in whichspecific data is stored or a card that has more disk space according tothe conventional arts. The present invention solves the above problem.

The present invention also relates to an electronic card systemincluding an electronic card having a re-writable memory function thatis capable of being supplied with power without being connected to otherapparatuses, and an extracting apparatus having power supply within andbeing capable of supplying power to the electronic cards. The electroniccards are capable of giving the user warnings by messages outputted fromthe extracting apparatus.

Specifically, the electronic cards receive data transmitted from theextracting apparatus. Next, the electronic cards send data that theelectronic card contains, such as a name of the electronic card, a diskspace, and an owner's name, to the extracting apparatus. Based on rulesthe user set for extracting, the extracting apparatus specifies one ofthe electronic cards. Next, the extracting apparatus transmits a card IDand an extracting message to the specified electronic card. Next, thespecified electronic card that received the extracting message notifiesthe user of being extracted by such a function as emitting light,vibrating, and sound output that is provided to the electronic card.

The present invention further relates to an electronic card systemincluding an electronic card having a re-writable memory function thatis capable of being supplied with power without being connected to otherapparatuses, and an extracting apparatus having power supply within andbeing capable of supplying power to the electronic cards. Informationabout the electronic cards such as the card ID, the title information,and the disk space are displayed in the information displaying unit.

Note that the electronic card receives data sent from the extractingapparatus and then sends the information of the electronic card to theextracting apparatus, and the extracting apparatus displays theinformation on the electronic card in the information displaying unit.

BRIEF DESCRIPTION OF THE DRAWINGS

These and the other objects, advantages and features of the inventionwill become apparent from the following description thereof taken inconjunction with the accompanying drawings which illustrate a specificembodiment of the invention.

In the drawings:

FIG. 1 illustrates an outside view of a memory card holder 10;

FIG. 2 is a block diagram illustrating a construction of the memory cardholder 10;

FIG. 3 illustrates an example of information stored in a informationstoring unit 105;

FIG. 4 illustrates a construction of a screen 161 shown in a displayingunit 102;

FIG. 5 illustrates shapes of slot icons along with indications;

FIG. 6 illustrates a construction of a screen 171 shown in a displayingunit 102;

FIG. 7 is a block diagram illustrating a construction of the memory card21;

FIG. 8 illustrates an example of information stored in a informationstoring unit 203;

FIG. 9 is a flow chart schematically showing an entire operation of thememory card holder 10;

FIG. 10 is a flow chart showing an operation of the memory card holder10 right after power is turned on;

FIG. 11 is a flow chart showing a slot process when a user selects aslot icon; continues to FIG. 12;

FIG. 12 is a flow chart showing a slot process when a user selects aslot icon; continued from FIG. 11;

FIG. 13 is a flow chart showing an operation of mutual authenticationbetween the memory card holder 10 and a memory card that requires anauthentication;

FIG. 14 is a flow chart showing an operation of a password verification;

FIG. 15 is a flow chart showing an operation of a search process;

FIG. 16 shows an outside view of a memory card holder 100 b;

FIG. 17 shows an exploded view of an extracting apparatus 50;

FIG. 18 is a block diagram illustrating a construction of the extractingapparatus 50;

FIG. 19 shows a data structure of an ID correspondence table that aninformation storing unit 514;

FIG. 20 shows an outside view of the memory card 60; an antenna 601 anda circuit 602 are enclosed in the memory card 60, and cannot be seenfrom outside; in this drawing, the antenna 601 and the circuit 602 areshown for the purpose of explanation;

FIG. 21 is a block diagram illustrating a construction of a memory card60;

FIG. 22 is a flow chart showing an operation of communication betweenthe extracting apparatus 50 and the memory card 60 when the memory card60 is placed on the extracting apparatus 50; continues to FIG. 23;

FIG. 23 is a flow chart showing an operation of communication betweenthe extracting apparatus 50 and the memory card 60 when the memory card60 is placed on the extracting apparatus 50; continues to FIG. 24;

FIG. 24 is a flow chart showing an operation of communication betweenthe extracting apparatus 50 and the memory card 60 when the memory card60 is placed on the extracting apparatus 50; continued from FIG. 23;

FIG. 25 shows shapes of communicating chambers:

(a) parallelogram

(b) equilateral triangle, and

(c) honeycomb;

FIG. 26 shows an outside view of an extracting apparatus 70;

FIG. 27 is a partial cross sectional view taken at line A–A′ of theextracting apparatus 70;

FIG. 28 shows an outside view of a personal computer 80 and a memorycard holder 85; and

FIG. 29 shows an outside view of a personal computer 90.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

1. First Embodiment

An explanation about a memory card holder 10 as a first embodimentaccording to the present invention is given below.

1.1 Memory Card Holder 10

The memory card holder 10 is a holding device having a notebook shape asshown in an outside view of FIG. 1, and is capable of holding up to 5memory cards. The memory card holder 10 includes an input displayingunit 10 a, a connecting member 10 b, and a card holding unit 10 c. Theinput displaying unit 10 a and the card holding unit 10 c are connectedby the connecting member 10 b. The connecting member 10 b is made offlexible material, and when the connecting member 10 b is flexed, thememory card holder 10 is folded such that the card holding unit 10 ccovers a surface of the input displaying unit 10 a.

A user usually uses the memory card holder 10 while the input displayingunit 10 a and the card holding unit 10 c are spread out as shown in FIG.1.

The card holding unit 10 c includes 5 card connecting units 111–115,each of the card connecting units being capable of holding one memorycard inserted therein, and the inserted memory cards and the memory cardholder 10 are in an electrical connection. In the drawing, memory cards21 and 22 are inserted into the card connecting units 111 and 112respectively, and the card connecting units 113–115 are empty.

The input displaying unit 10 a includes an input unit 101 and adisplaying unit 102. The input unit 101 includes a number pad, a poweron/off key, a selection decision key, arrow keys, and other keys, on anupper surface thereof. The displaying unit 102 is a touch panel type anddisplays information in a liquid crystal display and acceptsinstructions by the user via an operation pen 30.

As shown in the block diagram in FIG. 2, the memory card holder 10includes the input unit 101, the displaying unit 102, an authenticatingunit 103, a controlling unit 104, an information storing unit 105, andthe card connecting units 111–115.

Specifically, the memory card holder 10 is a computer system including amicroprocessor, a ROM, a RAM, a liquid crystal displaying unit, andsuch. The RAM stores a computer program. The memory card holder 10achieves a desired function by the microprocessor operating followingthe computer program.

(1) Information Storing Unit 105

As shown in FIG. 3 as an example, the information storing unit 105includes an area for storing a device password and medium informationareas 151–155.

The device password is uniquely assigned to the memory card holder 10,and written in the area in advance.

The device password is for allowing only a user who knows the devicepassword (usually, the owner of the memory card holder) to access thememory card holder. Anyone who does not know the device password is notallowed to use the memory card holder legally.

The medium information areas 151–155, each corresponding to the cardconnecting units 111–115 respectively, are for storing variousinformation stored in the memory cards inserted in the card connectingunits 111–115.

As shown in the drawing, the medium information area 151 includes anarea for storing a medium ID, a medium type information, a medium name,a medium icon information, and other information that are not shown inthis drawing.

The medium information areas 152–155 have the same structure as themedium information area 151.

(2) Displaying Unit 102

The displaying unit 102 includes a dual structured panel made of (i) aliquid crystal panel for indicating information by liquid crystals and(ii) a touch panel mounted on the liquid crystal panel for detecting atouch position. The displaying unit 102 displays, for example, a screen161 and a screen 171 shown in FIG. 4 and FIG. 6, both of which aredisplayed under control of the controlling unit 104.

The displaying unit 102, when a part of the screen is pressed with theoperation pen 30 by the user, also outputs an instruction informationcorresponding to an image or a text string at a pressed position on thescreen to the controlling unit 104.

(Screen 161)

The screen 161 includes slot icons 161 a, 161 b, . . . , and 161 e, amedium information displaying screen 161 f, a search button 161 g, and aquit button 161 h.

The slot icons 161 a, 161 b, . . . , and 161 e each correspond to thecard connecting units 111–115 and indicate whether a memory card isinserted and electrically connected to the card connecting units111–115.

FIG. 5 illustrates examples of the slot icons displayed on the screen161, along with indications of the icons.

A slot icon I101 shown in this drawing indicates that no memory card isinserted in the corresponding card connecting unit. A slot icon 102indicates that a memory card is inserted in and electrically connectedto the corresponding card connecting unit.

Further, a slot icon I103 indicates that a mutual authentication betweenthe memory card holder 10 and the memory card that is inserted in thecorresponding card connecting unit has failed.

The slot icons I101 and I102 in the fourth row indicate that the sloticons are displayed alternately at short time intervals. The meaning ofthe blinking is to be explained later.

In addition, slot icons I104–I106 each indicate medium icons stored inthe memory cards that are inserted in and connected to the correspondingcard connecting unit. The slot icons I104–I106 are shown only whenspecial memory cards that store the slot icons for themselves areinserted. Note that the slot icon I102 is a default icon shown when thememory card inserted in the corresponding card connecting unit does notstore a medium icon for itself.

In the first embodiment, the memory card stores an icon in advance. Thepresent invention is not restricted to this embodiment, however, and itis also possible that the memory card holder stores several icons fortypical memory cards, and displays one of the special icons when acorresponding card is inserted.

The medium information displaying screen 161 f displays variousinformation stored in a memory card selected by the user among connectedmemory cards. As shown in FIG. 4, the medium information displayingscreen 161 f includes 5 display items and a scroll bar. In FIG. 4,information shown as the 5 display items is the medium ID, the mediumtype information, the medium name, the medium renewal date, and themedium title. The memory card stores other information therein, and theother information is displayed in the medium information displayingscreen 161 f by operation of a scroll bar using the operation pen 30.The scroll bar is a well-known technique, which is commonly used indisplays of personal computers, and explanation is not given here.

The search button 161 g is operated by the user in order to start thesearching process that is explained later.

The quit button 161 h is operated by the user in order to terminate theprocess in the memory card holder 10 and turn the power off.

(Screen 171)

As shown in FIG. 6 as an example, the screen 171 includes slot icons 171a, 171 b, . . . , and 171 e, and a search item input screen 171 f.

The slot icons 171 a, 171 b, . . . , and 171 e each are the same as theslot icons 161 a, 161 b, . . . , and 161 e in FIG. 4. Note that FIG. 6indicates the slot icons 171 a and 171 c are blinking. The blinkingicons indicate that it is judged that the memory cards corresponding tothe icons satisfy a condition in a searching process that will bedetailed later.

As shown in FIG. 6, the search item input screen 171 f includes searchcondition input fields 171 j, 171 k and 171 m, a search start button 171g, a quit button 171 h, and a result displaying area 171 i. The searchcondition input field 171 j includes a search item selecting field, asearch keyword input field, and a search method selecting field.

The search item selecting field includes a search item input area 171 pand a menu displaying button 171 q. The search item input area 171 p isused to specify information stored in the memory cards, and the userselects one of the medium ID, the medium type information, the mediumname, and the other information. The menu displaying button 171 q isused to display a menu 171 r including the medium ID, the medium typeinformation, the medium name and the other information. When the menu171 r is displayed, the user selects one of options that the menu 171 rincludes.

The search keyword input field is an area for accepting one or more textstrings to be searched by the user.

The search method selecting field accepts one of an “AND condition” andan “OR condition” by the user. The “AND condition” and the “ORcondition” each indicate conditions when two or more words are enteredin the search keyword input field.

Specifically, when the “medium ID” is selected in the search itemselection area, “SD00001 SD0002” is inputted in the search keyword inputfield, and “OR” is selected in the search method selecting field, it isconsidered that a search condition “search ID=‘SD0001’ OR searchID=‘SD0002’” is specified.

The search condition input fields 171 k and 171 m are the same as thesearch condition input field 171 j, and each include a search itemselecting field, a search keyword input field, and a search methodselecting field.

For example, when the search condition is selected and entered in eachof the search condition input fields 171 j and 171 k, the specifiedsearch condition is “‘the search condition entered in the searchcondition input field 171 j’ AND ‘the search condition entered in thesearch condition input field 171 k’”.

The above also applies to a case in which the search condition isselected and entered in each of the search condition input fields 171j–171 m.

The search start button 171 g is for starting the searching processbased on the search condition selected and entered as above, andoperated by the user.

The quit button 171 h is operated by the user in order to terminate thesearching process.

The result displaying area 171 i displays a number of memory cards thatsatisfy the search condition as a result of the searching process.

(3) Card Connecting Unit 111–115

The card connecting unit 111 holds a memory card. The memory card heldtherein is electrically connected to the memory card holder 10. The userinserts the memory card in the card connecting unit 111, and connectsthe memory card to the card connecting unit 111. When the memory card isconnected, under control of the controlling unit 104, the cardconnecting unit 111 reads various information from the memory card andoutputs the information to the controlling unit 104.

The card connecting units 112–115 are the same as the card connectingunit 111, and an explanation is not given here.

(4) Input Unit 101

The input unit 101 includes the number pad, the power on/off key, theselection decision key, the arrow keys, and other keys, which areoperated by the user and output instruction information corresponding toeach key to the controlling unit 104.

(5) Authentication Unit 103

The authenticating unit 103 performs a challenge and response typemutual authentication with the memory card connected to the cardconnecting unit 111 under control of the controlling unit 104. Thechallenge and response type authentication between apparatuses is awell-known technique and an explanation is not given here.

The authenticating unit 103 also performs the challenge and responsetype mutual authentication, as described above, between each of thememory cards connected to the card connecting units 112–115 undercontrol of the controlling unit 104.

(6) Controlling Unit 104

The controlling unit 104 controls the input unit 101, the displayingunit 102, the authenticating unit 103, the information storing unit 105,and the card connecting units 111–115. Details about how the controllingunit 104 controls the above units will be explained later.

1.2 Memory Card 21

As shown in FIG. 7, a memory card 21 includes an input/output unit 201,an authenticating unit 202, and an information storing unit 203.

(1) Input/Output Unit 201

When the memory card 21 is inserted into one of the card connectingunits of the memory card holder 10, the memory card 21 and theinput/output unit 201 are electrically connected.

The input/output unit 201 reads information stored in a designated partof the information storing unit 203 and outputs the information to anexternal device (the memory card holder 10 in this embodiment) to whichthe memory card 21 is connected, or receives information from theexternal device under control of the external device and stores theinformation in the designated part of the information storing unit 203.

(2) Authenticating Unit 202

The authenticating unit 202 performs the challenge and response typemutual authentication with the external device to which the memory card21 is connected. The challenge and response type authentication betweenapparatuses is a well-known technique and an explanation is not givenhere.

(3) Information Storing Unit 203

As shown in FIG. 8, the information storing unit 203 includes a generalarea 221, a secure area 222, and a system area 223.

(General Area 221)

The general area 221 is an area in which a device having no particularpermission can write and read information.

As shown in FIG. 8 as an example, the general area 221 stores one ormore encrypted contents, one or more contents, and pieces of indexinformation respectively corresponding to the encrypted contents and thecontents. As shown in the same drawing, examples of the indexinformation include a content ID, a content title, a type ofinformation, a generated date, and a renewal date.

A content is made of sound, images, and other digital information. Anencrypted content is generated by encrypting such a content using agiven encrypting algorithm.

The content ID is an identifier for identifying the content. The contenttitle is information indicating a subject of the content. Theinformation type indicates the type of the content: music, image, text,and the like. The generated date indicates the date on which the contenthas been generated. The renewal date indicates the date on which thecontent has been last renewed.

(Secure Area 222)

The secure area 222 is an area in which only the external device isallowed to read and write information, only when the mutualauthentication is successful between the memory card 21 and the externaldevice which accesses the memory card 21.

As shown in FIG. 8 as an example, the secure area 222 stores one or moredecrypting keys. The decrypting keys are used when decrypting theencrypted content stored in the general area 221.

(System Area 223)

The system area 223 is an area which only the external device that isspecially allowed can access.

As shown in FIG. 8 as an example, the system area 223 stores a mediumpassword, a medium ID, a medium type information, a manufacturer name, amedium name, an owner name, a medium creation date, a medium renewaldate, a medium icon information, and a medium title.

The medium password is for restricting the access to the memory card 21.The medium password is used to grant an access to the memory card 21only to the user who knows the medium password.

The medium ID is an identification number unique to the memory card 21.The medium type information is information for identifying the type ofthe memory card 21. For example, the medium type information indicateswhether the memory card 21 requires the mutual authentication with theexternal device to which the memory card 21 is connected. The mediumtype information also indicates whether the memory card 21 requires theuser to enter a password when the memory card 21 is connected to theexternal device. At this time, the type information further indicates ifa password verification uses the medium password stored in the memorycard 21 or the device password stored in the external device.

The manufacturer name indicates the manufacturer of the memory card 21,the medium name indicates the memory card 21, and the owner nameindicates who owns the memory card 21. The medium creation dateindicates the date on which information has been written in the memorycard 21 for the first time, and the medium renewal date indicates thedate on which information has been last written in the memory card 21.The medium icon information indicates the unique icon to the medium typeof the memory card 21, and the medium title indicates the subject of thecontents of the memory card 21.

Note that while the explanation in the first embodiment is given about acase in which the information storing unit includes the general area,the secure area, and the system area, the present invention is notrestricted to the above example, and the information storing unit mayinclude the general area and the secure area. In this case, theinformation stored in the system area is to be stored in the securearea.

1.3 Memory Card 22–25

The memory card 22 has a similar construction with the memory card 21.The memory card 22 includes an input/output unit same as theinput/output unit 201 and an information storing unit same as theinformation storing unit 203 shown in FIG. 7. The memory card 22 doesnot include an authenticating unit.

The information storing unit of the memory card 22 includes a generalarea same as the general area 221 and a system area same as the systemarea 223, and does not include a secure area like the secure area 222shown in FIG. 8.

The memory cards 23 and 24 have the same construction as the memory card21, and the memory card 25 has the same construction as the memory card22.

1.4 Operation Of Memory Card Holder 10

An explanation of an operation of the memory card holder 10 is givenbelow.

(1) Outline Of Operation Of Memory Card Holder 10

Here, an outline of the operation of the memory card holder 10 is givenin reference to a flowchart shown in FIG. 9.

When the user turns on the power, the memory card holder 10 performs astart-up operation (Step S101).

Next, the displaying unit 102 or the input unit 101 accepts theselection of the icon by the user, and outputs the icon informationcorresponding to the selected icon to the controlling unit 104 (StepS102).

Then, the controlling unit 104 receives the icon information, and judgesif the received icon information indicates a slot icon, a search icon, aquit icon, or other icons. When the icon information indicates the sloticon (Step S103), the controlling unit 104 performs a slot operation(Step S104), and then returns to the Step S102 and repeats theoperation.

When the icon information indicates the search icon (Step S103), thecontrolling unit 104 performs a search operation (Step S105), and thenreturns to the Step S102 and repeats the operation.

When the icon information indicates other icons (Step S103), thecontrolling unit 104 performs other operations (Step S106), and thenreturns to the Step S102 and repeats the operation.

When the icon information indicates the quit icon (Step S103), thememory card holder 10 terminates the operation and turns the power off.

(2) Start-Up Operation

Here, the start-up operation of the memory card holder 10 is explainedin accordance with a flow chart shown in FIG. 10. Note that theoperation explained below is a detail of Step S101 of the flow chart inFIG. 9.

When the user turns on the power, an operation sequence from Step S111through Step S121 is performed to each of 5 slots in which the memorycards are inserted, namely the card connecting units 111–115.

Each of the card connecting units judges whether a memory card isinserted therein. When there is no memory card inserted (Step S112), thecard connecting unit displays a slot icon, indicating that the memorycard is not inserted, at a position corresponding to the card connectingunit (Step S123), clears information written in the medium informationarea corresponding to the card connecting unit (Step S124), and finishesthe operation regarding the corresponding card connecting unit.

When a memory card is connected to the card connecting unit (Step S112),the controlling unit 104 obtains the medium type information from thesystem area of the memory card connected to the card connecting unit viathe input/output units of the card connecting unit and the memory card(Step S113), and then judges whether the memory card requires the mutualauthentication.

When the controlling unit 104 judges that the memory card requires themutual authentication (Step S114), the mutual authentication isperformed (Step S115). When an authentication success information thatindicates a successful authentication is received from theauthenticating unit 103 (Step S116), the controlling unit 104 judges,using the obtained medium type information, whether the memory cardrequires the password verification.

When the memory card does not require the password verification (StepS117), the controlling unit 104 obtains, via the input/output units ofthe card connecting unit and the memory card, various information fromthe memory card that is connected to the card connecting unit (StepS118), and writes the obtained various information in the mediuminformation area corresponding to the card connecting unit (Step S119).Then the controlling unit 104 displays a slot icon, indicating that thememory card is inserted, at a position corresponding to the cardconnecting unit (Step S120), and finishes the operation regarding thecorresponding card connecting unit.

When the controlling unit 104 judges that the memory card does notrequire an authentication (Step S114), the operation moves to Step S117without performing the mutual authentication.

When the controlling unit 104 receives an authentication failureinformation indicating that the authentication is not successful fromthe authenticating unit 103 (Step S116), the controlling unit 104displays a slot icon, indicating that the authentication is notsuccessful, at a position corresponding to the card connecting unit(Step S122), and finishes the operation regarding the corresponding cardconnecting unit.

When the controlling unit judges that the memory card requires anauthentication (Step S117), the operation moves to Step S120 withoutobtaining the various information from the memory card.

As has been explained, the controlling unit judges whether the memorycard is inserted in the card connecting unit, and the slot iconindicating insertion of the memory card is displayed when the memorycard is inserted and connected, and the slot icon indicating that thememory card is not inserted is displayed when the memory card is notconnected.

(3) Slot Operation

Here, the slot operation when the user selects a slot icon is explainedin accordance with a flow chart shown in FIGS. 11 and 12. Note that theoperation explained below is a detail about Step S104 of the flow chartin FIG. 9.

The controlling unit 104 confirms, via a card connecting unit, whetherthe memory card is connected to the card connecting unit correspondingto the selected slot icon (Step S141).

When the controlling unit 104 judges that the memory card is connected(Step S142), the controlling unit 104 obtains the medium typeinformation via the input/output units included in the card connectingunit and the memory card (Step S143), and judges based on the obtainedmedium type information whether the memory card requires the mutualauthentication (Step S144).

When the controlling unit 104 judges that the memory card requires themutual authentication (Step S144), the mutual authentication isperformed (Step S145). When an authentication success information thatindicates a successful authentication is received from theauthenticating unit 103 (Step S146), the password verification isperformed (Step S147). When the password has been verified or nopassword verification is required (Step S148), the controlling unit 104obtains the medium ID from the memory card (Step S153) and reads themedium ID from the corresponding medium information area in theinformation storing unit 105 (Step S154) via the input/output unitsincluded in the card connecting unit and the memory card, and judgeswhether the medium IDs from the memory card and the medium informationarea are identical (Step S155).

When the controlling unit 104 judges that the memory card does notrequire the authentication (Step S144), the operation moves to StepS147.

When the controlling unit 104 judges that the two medium IDs areidentical (Step S155), the controlling unit 104 reads the informationstored in the medium information area.

When the controlling unit 104 judges that the two medium IDs are notidentical (Step S155), the controlling unit 104 obtains variousinformation from the memory card (Step S156), and writes the variousinformation in the information area (Step S157).

Next, the controlling unit 104 outputs the various information eitherread out from the medium information area or obtained from the memorycard to the displaying unit 102, and the displaying unit 102 displaysthe various information according to a format illustrated in FIG. 4(Step S158). Then, the medium icon information contained in the variousinformation either read out from the medium information area or obtainedfrom the memory card is outputted to the displaying unit 102, and thedisplaying unit 102 receives the medium icon information and displaysthe received medium icon information at the corresponding position inthe screen 161 (Step S159), and then finishes the operation.

When the password verification fails (Step S148), the controlling unit104 outputs a message, to the displaying unit 102, that the password isnot correct, and the displaying unit 102 receives the message anddisplays the received message (Step S149), and then finishes theoperation.

When the authentication failure information indicating that theauthentication is not successful from the authenticating unit 103 (StepS146), the controlling unit 104 displays an icon indicating anauthentication failure at the corresponding position to the icon for thecard connecting unit, and the controlling unit 104 outputs a messageindicating the authentication failure to the displaying unit 102 and thedisplaying unit receives the message and displays the received message(Step S150), and then finishes the operation.

When the controlling unit 104 judges that the memory card is notconnected (Step S142), the controlling unit 104 outputs the slot iconindicating that the memory card is not inserted to the displaying unit102, and the displaying unit 102 receives the slot icon and displays thereceived slot icon at the corresponding position in the screen 161 (StepS151), and then clears the information stored in the correspondingmedium information storing unit (Step S152), and then finishes theoperation.

(4) Mutual Authentication

An explanation of the mutual authentication sequence between the memorycard holder 10 and the memory card that requires the authentication isgiven in accordance with a flow chart shown in FIG. 13. The sequenceexplained below is a detail of Step S115 in the flow chart in FIG. 10and Step S145 in the flow chart in FIG. 11.

The authenticating unit 103 of the memory card holder 10 authenticatesthe memory cards (Step S171). When the authentication is successful(Step S172), the authenticating unit 202 of the memory cardauthenticates the memory card holder 10 (Step S173). When theauthentication is successful (Step S174), the authenticating unit 103outputs the authentication success information indicating that theauthentication is successful to the controlling unit 104 (Step S175).

When the authentication is not successful (either Step S172 or StepS174), the authenticating unit 103 outputs the authentication failureinformation indicating that the authentication is not successful to thecontrolling unit 104 (Step S176).

(5) Password Verification Operation

An explanation of a password verification operation is given inaccordance with a flow chart shown in FIG. 14. The sequence explainedbelow is a detail of Step S147 in the flow chart in FIG. 11.

The controlling unit 104 judges if the memory card requires the passwordverification, based on the obtained medium type information. When thememory card requires the password verification, the controlling unit 104further judges whether the memory card requires a device passwordverification or a medium password verification (Step S191).

When the memory card does not require the password verification (StepS191), the controlling unit 104 outputs information that the passwordverification is not required (Step S200), and finishes the operation.

When the memory card requires the medium password verification (StepS191), the controlling unit 104 obtains the medium password from thememory card via the input/output units included in the card connectingunit and the memory card (Step S192), accepts the user password (StepS193), and judges whether the obtained medium password and the userpassword are identical (Step S194).

When the controlling unit 104 judges that the two passwords areidentical (Step S194), the controlling unit 104 outputs information thatthe password is verified (Step S198), and finishes the operation.

When the controlling unit 104 judges that the two passwords are notidentical (Step S194), the controlling unit 104 outputs information thatthe password is not verified (Step S199), and finishes the operation.

When the memory card requires the device password verification (StepS191), the controlling unit 104 reads the device password from theinformation storing unit 105 (Step S195), accepts an input of a userpassword (Step S196), and judges whether the read device password andthe accepted password from the user are identical (Step S197).

When the controlling unit 104 judges that the two passwords areidentical (Step S197), the controlling unit 104 outputs information thatthe password is verified (Step S198), and finishes the operation.

When the controlling unit 104 judges that the two passwords are notidentical (Step S197), the controlling unit 104 outputs information thatthe password is not verified (Step S199), and finishes the operation.

(6) Search Operation

An explanation of a search operation is given in accordance with a flowchart shown in FIG. 15. The sequence explained below is a detail of StepS105 in the flow chart in FIG. 9.

The controlling unit 104 generates the search item input screen 171 fand outputs the generated search item input screen 171 f to thedisplaying unit 102, and the displaying unit 102 receives the searchitem input screen 171 f and displays the received search item inputscreen 171 f(Step S211).

Next, when the controlling unit 104 receives information indicating thetermination of the search operation from either the input unit 101 orthe displaying unit 102 (Step S212), the controlling unit 104 finishesthe search operation.

In other cases (Step S212), the controlling unit 104 accepts inputs of asearch item, a search keyword, and a search method (Step S213), acceptsan input of the search start button 171 g by the user from the inputunit 101 or the displaying unit 102 (Step S214), generates the searchcondition using the accepted search item, search keyword, and searchmethod (Step S215), searches for the memory card storing informationthat matches the generated search condition (Step S216), and outputs aresult of the search, which is the number of memory cards satisfying thecondition, to the displaying unit 102. The displaying unit 102 receivesthe result of the search, and displays the received result in the resultdisplaying area 171 i (Step S217).

Next, the controlling unit 104 displays the slot icon corresponding tothe card connecting unit, in which the memory card that matches thesearch condition is inserted, blinking. In other words, the slot iconsI101 and I102 are displayed alternately every 0.5 seconds (Step S218).

Then, the controlling unit 104 accepts a selection of the slot icon fromthe input unit 101 or the displaying unit 102 (Step S219), and performsthe slot operation for the accepted slot icon (Step S220). Next, thecontrolling unit 104 goes back to Step S211 and repeats the operation.

The slot operation in Step S220 is the same as the operation in StepS104 in the flow chart shown in FIG. 9.

(7) Memory Card Ejection Operation

The memory card is pulled out from the memory card holder in thefollowing manner.

Ejection of the memory card from the memory card holder is carried out,as explained below, either by operating icons or by pressing an ejectbutton for the memory card on the memory card holder. A mechanism of theejection of the memory card by using the eject button is the same as aconventional mechanism of the ejection of a PC card from a laptopcomputer.

The ejection by operating icons is as follows.

An icon indicating a trash bin is displayed on the liquid crystaldisplay unit. By dragging the memory card icon and dropping it into thetrash bin, it is possible to eject the corresponding memory card. Amechanism of the ejection of the memory card by icons is also the sameas a conventional mechanism of the ejection of the PC card from thelaptop computer When the memory card to be ejected requires the user toenter the password before ejection of the memory card, regardless of thepassword type that the memory card requires, the memory card holderrequests the user to enter the password. If the password that the userenters is not identical to the medium password or the device password,the memory card is locked so that it cannot be ejected. This function isprovided in order to prevent a third party from obtaining the memorycard illegally.

1.5 Modified Examples

In the above explanation, the details about the memory card holder 10have been given. However, the present invention is not restricted to theabove embodiment, and the following examples may also be included.

(1) Memory Card Holder 100 b

A memory card holder 100 b has the same internal construction as thememory card holder 10, but an appearance of the memory card holder 100 bis different from the memory card holder 10.

The memory card holder 100 b includes a displaying unit 102 b and aninput unit 101 b on the front part, as shown in an outside view in FIG.16. On a side unit 103 b, five card connecting units 111 b–115 b andfive card connecting units 116 b–120 b are disposed along a lengthwisedirection.

Further, in an area closer to the side unit 103 b in the displaying unit102 b, five slot icons 121 b–125 b and five slot icons 126 b–130 b aredisplayed along the lengthwise direction each in parallel.

The 5 card connecting units 111 b–115 b each correspond to the sloticons 121 b–125 b. The 5 card connecting units 116 b–120 b eachcorrespond to the slot icons 126 b–130 b

(2) The memory card holder 10 connects to a web server via the Internet.The web server stores slot icons having a variety of shapes in advance.According to the user request, the memory card holder 10 obtains a sloticon that the user requests from the web server via the Internet, andwrites the obtained slot icon in the information storing unit 105. Theslot icon obtained via the Internet and written in the informationstoring unit 105 is used by the memory card holder 10 as the slot iconindicating that the memory card is inserted in place of the slot iconI102 or the slot icon that the memory card stores specifically.

(3) In the first embodiment and in the modified example (1), theexplanations are given to independent type memory card holders. Thepresent invention, however, is not restricted to the above examples. Thepresent invention may also be a compound type having functions explainedin the first embodiment, such as a cell phone with an additionalfunction, for example.

(4) While the example in which the password is used in theauthentication is illustrated in the first embodiment, the presentinvention is not restricted to the above example. For example, in placeof the password authentication, a biometric authentication system can beemployed. Further, in place of the device password, an authenticationdevice can be applied. In this case, the authentication device can beattached to the memory card holder, and the memory card holder can beused only when the authentication device is attached.

2. Second Embodiment

An explanation about an extracting apparatus 50 as another embodiment ofthe present invention is given below.

2.1 Extracting Apparatus 50

The extracting apparatus 50 enables the user to check information storedin the memory cards without inserting the memory cards inside theextracting apparatus 50 and to extract a specified card that the userdesires from more than one memory card.

FIG. 17 shows an exploded view of the extracting apparatus 50 beforebeing assembled. The extracting apparatus 50, as shown in FIG. 17,includes a covering unit 50 a and a main body 50 b. The covering unit 50a is placed so as to cover the main body and adhered thereto.

The main body 50 b includes 100 communicating chambers 50 c, 50 d, . . ., 50 e, . . . , and 50 f, and a controlling chamber 50 g. The 100communicating chambers 50 c, 50 d, . . . , 50 e, . . . , and 50 f areeach disposed at a corresponding position to each element in a 10×10matrix.

The 100 communicating chambers 50 c, 50 d, . . . , 50 e, . . . , and 50f are separated by partition boards disposed such that a set of ninepartition boards are equally spaced in parallel and another set of ninepartition boards are also equally spaced in parallel, orthogonal to thefirst set of the nine partition boards. A space between two adjacentpartition boards is about 30 mm.

The communicating chamber 50 e forms a rectangle that is about 30 mmboth in a width and a length, and about 20 mm in a height. In thecommunicating chamber 50 e, an antenna 501 a formed in a loop coil isdisposed so that a direction of a magnetic flux generated when electriccurrent flows in the antenna 501 a becomes vertical to a bottom surfaceof the main body 50 b. Further, a light-emitting diode (LED) 501 b isdisposed in a center of the communicating chamber 50 e so that anoptical axis becomes vertical to the bottom surface of the main body 50b, and so that light emitted from the LED 501 b is irradiated on anopposite side to the bottom surface of the main part. As in thecommunicating chamber 50 e, an antenna and a LED are disposed in each ofthe rest of the communicating chambers.

A displaying unit 512, an input unit 513, and a controlling unit 511 aredisposed in the controlling chamber 50 g.

The covering unit 50 a includes round openings, each being about 5 mm ina diameter, at corresponding positions to each of the centers of thecommunicating chambers, so that beams from the LED are emitted outsidethrough the openings of the extracting apparatus 50. Further, thecovering unit 50 a includes openings each having the same shape as thedisplaying unit 512 and the input unit 513 at positions corresponding tothe displaying unit 512 and the input unit 513.

On the upper surface of the covering unit 50 a, the user places memorycards 60 a–60 e. When the memory cards are placed, the extractingapparatus 50 reads information from the memory cards and displays theinformation read out, by communicating with each of the memory cardsplaced thereon using radio wave. Further, the LEDs in a vicinity of thememory card emit light so that the user knows from which memory card thedisplayed information is read. In addition, the user knowscorrespondence between the displayed information and the memory card bythe light emitted from the read out memory card itself, vibrationthereof, or sound made thereby.

As shown in FIG. 18, the extracting apparatus 50 includes thecontrolling unit 511, the displaying unit 512, the input unit 513, theinformation storing unit 514, and 100 communicating units 501, 502, . .. , and 503.

(1) Displaying Unit 512

The displaying unit 512 has substantially the same construction as thedisplaying unit 102 of the memory card holder 10 of the firstembodiment, and has a dual structure with a liquid crystal panel and atouch panel. Further, the displaying unit 512 displays the same screenas in the displaying unit 102.

(2) Input Unit 513

The input unit 513 has substantially the same construction as the inputunit 101 of the memory card holder 10 of the first embodiment.

(3) Information Storing Unit 514

The information storing unit 514 has substantially the same constructionas the information storing unit 105 of the memory card holder 10 of thefirst embodiment

The information storing unit 514 further includes an ID correspondencetable 521, as shown in an example of FIG. 19.

The ID correspondence table 521 has an area to store 100 sets eachincluding a communicating unit ID, a medium ID and a mark.

The 100 sets each correspond to the 100 communicating units 501, 502, .. . , 503.

The communicating unit ID is an identifier to identify each of thecommunicating units 501, 502, . . . , and 503. Specifically, 100communicating unit IDs “1”, “2”, “3”, . . . , and “100” are assigned tothe 100 communicating units 501, 502, . . . , and 503, respectively.Each of the 100 sets stores each of the 100 communicating unit IDs “1”,“2”, “3”, . . . , and “100”, respectively, in advance.

The medium ID is an identifier used to identify the memory card.

The mark indicates the communicating unit selected to performcommunication with the memory card. In other words, the communicatingunit that is indicated by the communicating unit ID in the set havingthe mark is selected.

(4) Communicating Unit 501

The communicating unit 501 includes the antenna 501 a, the LED 501 b, amodem unit 501 c, and a driving unit 501 d. Other communicating unitsalso have the same structure, and therefore an explanation is only givento the communicating unit 501.

(Antenna 501 a)

The antenna 501 a is made of a conducting wire that is coiled aplurality of times in a loop coil shape, and connected to the modem unit501 c. The antenna 501 a is for both transmission and reception.

The antenna 501 a is a directional antenna that radiates radio waves toa specific direction. The antenna 501 a receives carrier waves withsignals from the modem unit 50 c and radiates the carrier waves as radiowaves. A range of radiation of the radio waves is approximately 30 mmfrom a center of the antenna 501 a.

Further, the antenna 501 a receives the radio waves and converts thereceived radio waves to electric signals, and outputs the electricsignals to the modem unit 501 c.

(Modem Unit 501 c)

The modem unit 501 c receives signals (pulsed signal wave) from thecontrolling unit 511. Upon receiving the signals, the modem unit 501 cuses the received signals as modulation signals, and modulates amplitudeof 2.4 GHz carrier waves, and outputs the modulated carrier waves to theantenna 501 a.

The modem unit 501 c further receives the electric signals from theantenna 501 a, selects a signal having a 2.4 GHz wavelength, extractspulsed signal waves from the selected signal, and then outputs theextracted pulsed signal waves to the controlling unit 511.

(Driving Unit 501 d)

The driving unit 501 d receives an instruction signal from thecontrolling unit 511, indicating an instruction of either emitting lightor stopping emitting light. Upon receiving the instruction signal, thedriving unit 501 d controls driving of the LED 501 b to either emitlight or stop emitting light based on the received instruction signal.

(LED 501 b)

The LED 501 b is a light-emitting diode, and emits light or stopsemitting light under control of the driving unit 501 d.

(5) Controlling Unit 511

The controlling unit 511 specifically includes a microprocessor, a ROM,a RAM, and such. The RAM stores a computer program. By themicroprocessor operated according to the computer program, thecontrolling unit 511 achieves its function.

The operation of the controlling unit 511 is explained later.

2.2 Memory Card 60

All of the memory cards 60 a–60 e have the same construction. Therefore,an explanation here is given to a memory card 60 as an example.

As shown in an outside view of FIG. 20, the memory card 60 includes anantenna 601 and a circuit unit 602 enclosed in a resin formed in a plateshape that is 30 mm long, 30 mm wide, and 0.5 mm thick. A range withinwhich the memory card 60 can communicate is approximately 30 mm, and thecommunication speed is 10–20 msec/byte.

As shown in FIG. 21, the memory card 60 includes the antenna 601 and thecircuit unit 602, and the circuit unit 602 includes a modem unit 603, apower unit 604, an LED 605, a driving unit 606, a controlling unit 607,a driving unit 608, a driving unit 609, a speaker 610, a vibrator 611,and information storing unit 612.

(1) Antenna 601

The antenna 601 has substantially the same construction as the antenna501 a; the antenna 601 is made of a conducting wire that is coiled aplurality of times in a loop coil shape, and connected to the modem unit603 and the power unit 604. The antenna 601 is for both transmission andreception

The antenna 601 is a directional antenna that radiates radio waves in aspecific direction. The antenna 601 receives carrier waves with signalsfrom the modem unit 603 and radiates the carrier waves as radio waves. Arange of radiation of the radio waves is approximately 30 mm from acenter of the antenna 601.

Further, the antenna 601 receives the radio waves and converts thereceived radio waves to electric signals, and outputs the electricsignals to the modem unit 603 and the power unit 604.

(2) Power Unit 604

The power unit 604 is connected to the antenna 601 and receives theelectric signals from the antenna 601, and stores the received electricsignals as electric charges. The power unit 604 further supplieselectricity to each component part of the memory card 60.

(3) Driving Unit 606

The driving unit 606 receives an instruction signal from the controllingunit 607, indicating an instruction of either emitting light or stoppingemitting light. Upon receiving the instruction signal, the driving unit606 controls driving of the LED 605 to either emit light or stopemitting light based on the received instruction signal.

(4) LED 605

The LED 605 is a light-emitting diode, and emits light or stops emittinglight under control of the driving unit 606.

(5) Driving Unit 608

The driving unit 608 receives an instruction signal from the controllingunit 607, indicating an instruction of either outputting sound orstopping sound output. Upon receiving the instruction signal, thedriving unit 608 outputs a sound signal with a specified frequency tothe speaker 610 based on the received instruction signal.

(6) Speaker 610

The speaker 610 receives the sound signal from the driving unit 608,then converts the sound signal into sound and outputs the sound.

(7) Driving Unit 609

The driving unit 609 receives an instruction signal from the controllingunit 607, indicating an instruction of either starting or stopping ofvibration. Upon receiving the instruction signal, the driving unit 609controls driving of the vibrator 611 to either start or stop vibrationbased on the received instruction signal.

(8) Vibrator 611

The vibrator 611 starts or stops vibration under control of the drivingunit 609.

(9) Information Storing Unit 612

The information storing unit 612 includes a general area and a systemarea. The general area and the system area store the same kind ofinformation as the information stored in the general area 221 and thesystem area 223 of the information storing unit 203 of the memory card21.

(10) Controlling Unit 607

The controlling unit 607 specifically includes a microprocessor, a ROM,a RAM, and such. The RAM stores a computer program. By themicroprocessor operated according to the computer program, thecontrolling unit achieves its function.

The operation of the controlling unit 607 is explained later.

2.3 Communication Method Between Extracting Apparatus 50 and Memory Card60

An explanation is given about a communication method between theextracting apparatus 50 and the memory card 60 when the memory card 60is placed on the extracting apparatus 50.

The communication between the extracting apparatus 50 and the memorycard 60 is performed in three phases: (a) power supply, (b)establishment of communication, and (c) data transmission and reception.An explanation is given to each phase below.

(a) Power Supply Phase

The controlling unit 511 of the extracting apparatus 50 instructs eachcommunicating unit to output radio waves for power supply, and eachcommunicating unit outputs the radio waves. In the memory card 60, theantenna 601 receives the radio waves, the power unit 604 stores electriccharges and supplies electricity to each component part that forms thememory card 60.

Note that the power supply from the extracting apparatus 50 to thememory card 60 is performed not only in this phase, but also in thefollowing phases.

(b) Establishment Of Communication Phase

Each communicating unit of the extracting apparatus 50 communicates withup to 10 different memory cards via 10 time-shared communicatingchannels and a control channel in the same period of time. Each of thetime-shared communicating channels and the control channel includesinbound and outbound channels. The inbound channel is only used fortransmission of information to the extracting apparatus 50 from thememory card, and the outbound channel is only used for transmission ofinformation from the extracting apparatus 50 to the memory card. Notethat in an explanation below, the inbound and outbound channels are notspecifically distinguished to make the explanation brief. Each of theinbound and outbound channels has 50 msec of time width.

Via the control channel, one of the communicating units of theextracting apparatus 50 requests the medium ID from the memory card 60.The memory card 60 receives the request for the medium ID via thecontrol channel.

Next, the memory card 60 generates one random integer number between 1and 10, and selects one communicating channel indicated by generatedrandom number. The communicating channel may also be selected using aninteger value generated in such a manner that a hash function forgenerating an integer value between 1 and 10 is applied to the media IDstored in the information storing unit 612 of the memory card 60.

As has been explained in the above, the memory card selects onecommunicating channel using the randomly generated one integer valuebetween 1 and 10, and therefore possibility of conflict among more thanone memory card using the same channel in the same period of timedecreases. Further, when the conflict among more than one memory cardoccurs, each memory card generates a different random number after aperiod of time which is indicated by the generated random number andselects one communicating channel using another random number generatedagain.

Next, the memory card 60 transmits, to the extracting apparatus 50 viathe control channel, a channel identification number indicating theselected channel and the medium ID stored in the memory card 60. Theextracting apparatus 50 receives the channel identification number andthe medium ID via the control channel.

Note that, when one memory card is placed above more than onecommunicating chamber disposed close to each other, more than onecommunicating unit in the more than one communicating chamber is tocommunicate with the memory card. In this case, the extracting apparatus50 selects one communicating unit that communicates with the memorycard. A detail about the selection method of one communicating unit isexplained later.

As explained in the above, the communicating channel between the memorycard and the extracting apparatus 50 is established.

(c) Data Transmission And Reception Phase

The memory card 60 and the extracting apparatus 50 perform datatransmission and reception via the communication channel identified bythe channel identification number.

As has been explained above, communication between the memory card andthe extracting apparatus 50 is performed via the 10 time-sharedcommunicating channels and the control channel. Accordingly, even whenup to 10 different memory cards are placed overlapping each other on theextracting apparatus 50, the extracting apparatus 50 is operable tocommunicate with each of the memory cards.

2.4 Operation Of Communication Between Extracting Apparatus 50 andMemory Card 60

An explanation about an operation of the communication between theextracting apparatus 50 and the memory card 60 when a memory card 60 isplaced on the extracting apparatus 50 is given below in accordance withflow charts in FIGS. 22–24.

The controlling unit 511 of the extracting apparatus 50 repeats StepsS501–S509 for the same number of times as the number of communicatingunits in the extracting apparatus 50. In other words, the controllingunit 511 repeats the Steps S501–S509 100 times. In the repetition, thecontrolling unit 511 shifts the variable i from 1, 2, 3, . . . , to 100.

The controlling unit 511 outputs a request instruction for requestingthe communicating unit indicated by the variable i for the medium ID(Step S502), the communicating unit indicated by the variable itransmits the request instruction via the electronic waves (Step S503).The controlling unit 607 of the memory card 60 receives the requestinstructions via the antenna 601 and the modem unit 603 (Step S503),reads out the medium ID stored therein (Step S504), and controls thedriving unit 606 so that the LED 605 emits light, and the LED 605 emitslight (Step S505). Next, the controlling unit 607 transmits the read outmedium ID via the modem unit 603 and the antenna 601 using theelectronic waves (Step S506). The communicating unit receives the mediumID and outputs the received medium ID to the controlling unit 511 (StepS507), and the controlling unit 511 takes the variable i as acommunicating unit ID, and writes a set including the received medium IDand the communicating unit ID in the ID correspondence table 521 (StepS508).

As shown in the above, the set including the medium ID, for identifyingthe memory card that communicates with each communicating unit, and thecommunicating unit ID, for identifying the communicating unit, is storedin the ID correspondence table 521.

Next, the controlling unit 511 extracts all of the communicating unitIDs that each correspond to and form a set with each of the medium IDs(Step S510). The controlling unit 511, then, outputs a light emittingsignal to the communicating units having the extracted communicatingunit IDs so that the LEDs of the communicating units emit lights (StepS511), and each of the corresponding communicating units makes the LEDemit light (Step S513). Further, the controlling unit 511 outputs alight emission stopping signal to the communicating units not having theextracted communicating unit IDs so that the LEDs of the communicatingunits stop emitting light (Step S512), and the correspondingcommunicating units make the LEDs stop emitting light if the light hasbeen emitted (Step S514).

As explained above, the communicating units in the vicinity of thememory card make the LEDs emit light, and the rest of the communicatingunits make the LEDs stop emitting light if the LEDs have emitted light.

Next, the controlling unit 511 sorts the sets stored in the IDcorrespondence table 521 in an order of the medium ID, and generates atemporary table containing the sorted sets (Step S515), attaches a markto one set selected from one or more sets having the same medium ID(Step S516). When more than one set has the same medium ID, it indicatesthat one memory card is placed on more than one communicating chamberthat are adjacent to each other, and the more than one communicatingunit placed on the communicating chambers is to communicate with thememory card. In this case, the more than one set each includes the samememory card medium ID and the communicating unit ID of eachcommunicating unit. One communicating unit is selected to communicatewith the memory card, when the communicating unit is identified by thecommunicating unit ID included in the set having the mark.

Next, the controlling unit 511 repeats Steps from S517 to S524 to thecommunicating unit identified by the communicating unit ID included inthe set having the mark.

The controlling unit 511 outputs an information request to the markedcommunicating unit (Step S518), and the marked communicating unittransmits the information request via the radio waves (Step S519). Thecontrolling unit 607 of the memory card receives the information requestvia the antenna 601 and the modem unit 603 (Step S519), reads therequested information from the information storing unit 612 (Step S520),and transmits the read out information via the modem unit 603 and theantenna 601 (Step S521). The marked communicating unit receives theinformation (Step S521), and outputs the received information to thecontrolling unit 511 (Step S522). The controlling unit 511 writes, inthe information storing unit 514, the received information withcorrespondence with the medium ID (Step S523).

As explained above, the controlling unit 511 reads information from allof the memory cards that are placed on the extracting apparatus 50, andwrites the received information with correspondence with the medium IDin the information storing unit 514.

Next, the controlling unit 511 generates a medium ID list by extractingonly the medium IDs from the sets each including the medium ID and theinformation in the information storing unit 514, and outputs thegenerated medium ID list to the displaying unit 512. The displaying unit512 displays the medium ID list (Step S525).

When the extracting apparatus 50 accepts a quitting operation from theuser through the displaying unit 512 and the input unit 513 (Step S526),the extracting apparatus 50 completes the operation and turns the poweroff.

Upon the acceptance of selection of the medium ID from the user throughthe displaying unit 512 or the input unit 513 (Step S527), thedisplaying unit 512 or the input unit 513 outputs the selected medium IDto the controlling unit 511. The controlling unit 511 receives themedium ID, reads information corresponding to the received medium IDfrom the information storing unit 514, and outputs the read outinformation to the displaying unit 512. The displaying unit 512 displaysthe information (Step S528).

The controlling unit 511 outputs, to the corresponding communicatingunit, an instruction that the corresponding unit makes the LED blink andan instruction that the corresponding memory card makes the LED blink(Step S529). The communicating unit makes the LED blink (Step S531).Further, the communicating unit outputs, to the memory card, theinstruction that the memory card makes the LED blink (Step S530). Thememory card makes the LED blink, and vibrates the vibrator and makes thespeaker output sounds (S532).

In the manner that has been described in the above, the informationstored in the memory card selected by the user is displayed in thedisplaying unit 512, the LED of the memory card is made blinking, thevibrator of the memory card is made vibrating, and the speaker of thememory card is made outputting sounds, and the LEDs in the vicinity ofthe position where the memory card is placed are made blinking. In thisway, the user knows the correspondence between the displayed informationand the memory card.

2.5 Other Modified Examples

The explanation about the extracting apparatus 50 has been given in theabove. The present invention, however, is not restricted to the aboveembodiment, and examples explained below are also included.

(1) The extracting apparatus 50 can also be such that, as has beenexplained in the first embodiment, the extracting apparatus 50 acceptsan input of the search condition about the memory card desired by theuser, identifies the memory card that satisfies the accepted searchcondition among more than one memory cards placed on the extractedapparatus 50, makes the LED of the identified memory card emit light,and makes the LED of the extracting apparatus 50 in the vicinity of theidentified memory card emit light.

(2) While each communicating unit in the above extracting apparatus 50is disposed in each of the communicating chambers formed by thepartition boards that cross each other orthogonally, examples below arealso possible.

The communicating chambers can be parallelograms as shown in FIG. 25( a)formed by a plurality of partition boards that are placed parallel toeach other and another plurality of partition boards that are placedparallel to each other and in an angle of 120° to the former pluralityof partition boards. The antenna and the LED are placed in the center ofeach of the communicating chambers formed in this way. Dashed lines inFIG. 25( a) indicate positions that the partition boards are placed.Note that the angle is not limited to 120° and can be different.

The communicating chambers can be equilateral triangles, as shown in theFIG. 25( b), formed by a first plurality of partition boards that areplaced parallel to each other, a second plurality of partition boardsthat are placed parallel to each other and in an angle of 120° to thefirst plurality of partition boards, and a third plurality of partitionboards that are placed parallel to each other and in an angle of 60° tothe first plurality of partition boards. The antenna and the LED areplaced in the center of each of the communicating chambers formed inthis way. Dashed lines in the FIG. 25( b) indicate positions that thepartition boards are placed.

The communicating chambers can also be hexagons, as shown in FIG. 25(c), formed by a plurality of partition boards that are placed in a honeycomb shape. The antenna and the LED are placed in the center of each ofthe communicating chambers formed in this way. Dashed lines in FIG. 25(c) indicate positions that the partition boards are placed.

(3) Although the extracting apparatus 50 described above does notspecify positions that the memory cards are to be placed on an uppersurface of the extracting apparatus and reads information from thememory cards that the user freely place, an example explained below isalso possible.

As shown in FIG. 26, the extracting apparatus 70 includes nine concaveparts 711–719 on the upper surface thereof at positions corresponding toeach element in a 3×3 matrix. The concave parts 711–719 are each formedin a shape similar to the memory card and are each capable of holdingone memory card. The user places the memory card in each of the concaveparts. In addition, nine LEDs 711 a–719 a each corresponding to theconcave parts 711–719 are disposed on the convex part on the uppersurface except for the concave parts of the extracting apparatus 70.

Moreover, as shown in FIG. 27, a side surface 721 of the concave part714 and a side surface 722 facing the side surface 721 have penetratingholes 731 and 732, respectively, and a light emitting element 714 b isprovided in the side surface 721, and a light receiving element 714 c isprovided in the side surface 722. The light emitting element 714 birradiates light to the light receiving element 714 c through thepenetrating holes 731 and 732. Under the bottom surface of the concavepart 714, the communicating unit containing a coil shaped antenna isdisposed.

FIG. 27 shows a cross-sectional view of the extracting apparatus 70taken at a line between a bottom surface of the concave part 714 and theupper surface of the extracting apparatus, and that is parallel to thebottom surface of the concave part 714.

All the concave parts have the same structure as the concave part 174.Other than what has been explained here, the extracting apparatus 70 hasthe same construction as the extracting apparatus 50.

When the user places the memory card so as to be held in the concavepart 714, the light receiving element 714 c detects that the lightirradiated from the light emitting element 714 b is blocked, andoutputs, to the controlling unit, a signal indicating that the light isblocked. Upon reception of the signal, the controlling unit recognizesthat the concave part 714 holds the memory card and controls thecommunicating unit disposed under the bottom surface of the concave part714 to start communicating with the memory card.

In this way, the extracting apparatus 70 detects the memory card held inthe concave part. Through communication between the extracting apparatus70 and the detected memory card via the communicating unit disposedunder the bottom surface of the concave part, the memory card readsinformation and the extracting apparatus 70 stores and displays the readout information.

(4) The extracting apparatus may also have a construction describedbelow.

A bar code is printed on the surface of the memory card 60. The bar coderepresents the medium ID that is stored in the memory card.

A bar-code reader includes a bar-code reading unit for reading thebar-code optically and converting the read bar-code into the originalmedium ID, a communicating unit for identifying the memory card thatstores the medium ID using the medium ID generated by the conversion andfor reading the information from the identified memory card via theradio waves, and a displaying unit for displaying the information readfrom the memory card.

(5) The medium ID, title information, a remaining capacity of the memorycard, and such, are included in the information obtained from the memorycard and displayed.

(6) It is also possible that electronic cards are placed in an apparatusthat is also a card container. The apparatus accepts a search conditionsuch as “a card with a large capacity” from the user through a menu,extracts an electronic card that satisfies the search condition, andmakes the extracted electronic card emit light.

3. Other Modified Examples

Although the present invention has been explained in reference with theabove embodiments, the present invention is not restricted to the aboveembodiments and examples below are included in the present invention.

(1) The memory card holder may have a structure described below.

A memory card holder 85, as shown in an outside view in FIG. 28, is anapparatus for holding up to 5 memory cards.

A user uses the memory card holder 85 by connecting the memory cardholder 85 and a personal computer 80 via a USB cable 811.

The memory card holder 85 includes five card connecting units 851–855 ona side surface thereof. When a memory card is inserted in one of thecard connecting units, the memory card and the memory card holder 85 areelectrically connected. In the drawing, memory cards 861–862 areinserted in the card connecting units 851–852 and connectedrespectively. The memory cards are not inserted in the card connectingunits 853–855.

The personal computer 80 is a computer system including a microprocessor, a ROM, a RAM, a hard disk unit, a liquid crystal displayingunit 802, a keyboard unit 801, and such. A computer program is stored inthe RAM or the hard disk unit. The personal computer 80 achievesfunctions thereof when the microprocessor is operated according to thecomputer program.

The memory card holder 85 corresponds to the memory card holding unit 10c of the memory card holder 10 in FIG. 1, the USB cable 811 correspondsto the connecting member 10 b, and the personal computer 80 correspondsto the input displaying unit 10 a.

An operation of the memory card holder 85 and the personal computer 80connected via the USB cable 811 is the same as the memory card holder 10illustrated in FIG. 1.

(2) The memory card holder may also have a structure described below.

A personal computer 90, as shown in an outside view in FIG. 29, is acomputer system same as the personal computer 80. The personal computer90 achieves functions thereof when a microprocessor is operatedaccording to a computer program.

The personal computer 90 includes five card connecting units 911–915 ona side surface thereof. When the memory card is inserted in one of thecard connecting units, the memory card and the personal computer 90 areelectrically connected. The personal computer 90 also works as a memorycard holding apparatus capable of holding up to five memory cards.

In the drawing, memory cards 924–925 are inserted in the card connectingunits 914–915 and connected respectively. The memory cards are notinserted in the card connecting units 911–913.

An operation of the personal computer 90 is the same as the memory cardholder 10 illustrated in FIG. 1.

(3) The present invention may also be a method that has been explainedin the above. Further, the present invention may be a computer programthat realizes the method by a computer, as well as a digital signalrepresenting the computer program.

Moreover, the present invention may also be a computer readablerecording medium that stores the computer program or the digital signal.Examples of the computer readable recording medium include a flexibledisc, a hard disk, a CD-ROM, a MO, a DVD, a DVD-ROM, a DVD-RAM, a BD(Blu-ray Disc), a semiconductor memory, and such. In addition, thepresent invention may also be the computer program or the digital signalstored in the computer readable recording medium.

The present invention as the computer program or the digital signal maybe transmitted via a telecommunication line, a wireless connection, acable communication line, and the network represented by the Internet, adata and audio broadcast, and the like.

The present invention may also be a computer system having a memory thatstores the computer program and a microprocessor that operates accordingto the computer program.

Further, the present invention as the computer program or the digitalsignal may be transferred to another independent computer system via therecording medium or the network so as to be executed in the destination.

(4) The present invention is also achieved by a combination of the aboveembodiments, a part of the above embodiments, and the above modifiedexamples.

4. Advantageous Effect Of The Invention

As has been described, the present invention is such that a recordingmedium holder comprises a holding unit operable to hold, in anelectrically connection, one or more portable recording mediums, therecording medium being readable and writable in the connection andstoring digital information or a set including digital information andindex information relating to the digital information; a selecting unitoperable to select one recording medium from the one or more portablerecording mediums held in the connection; a judging unit operable tojudge whether an access to the digital information stored in theselected recording medium is allowed; and a displaying unit operable todisplay the digital information or the index information recorded in theselected recording medium when the judging unit judges that the accessis allowed.

According to the above construction, information stored in the recordingmedium is displayed when the judgment is that the access is allowed.Therefore, it is possible to treat the recording medium safely even whenthe recording medium stores secret information.

Further, the above recording medium holder is such that the judging unitincludes an input sub-unit operable to accept a user password; a devicepassword storing unit operable to store a device password in advance;and a password judging sub-unit operable to compare the accepted userpassword and the stored device password, and to judge that the access isallowed when the user and device passwords are identical.

According to the above construction, whether or not the access isallowed is judged by verifying the device password that is registered inthe recording medium holder and the accepted user password. Therefore,only an authorized user who knows the device password is granted anaccess.

Further, the above recording medium holder is such that the recordingmedium includes a password storing unit that stores a medium password inadvance, and the judging unit includes an input unit operable to accepta user password; and a password judging unit operable to compare theaccepted user password and the stored medium password, and to judge thatthe access is allowed when the user and medium passwords are identical.

According to the above construction, whether or not the access isallowed is judged by verifying the medium password that is registered inthe recording medium and the accepted user password. Therefore, only anauthorized user who knows the medium password is granted an access.

Further, the above recording medium holder is such that the displayingunit further displays icons each corresponding to the recording mediumsthat are each held in the connection, and the selecting unit accepts aselection of an icon from the displayed icons by clicking the icon, andselects the recording mediums corresponding to the selected icon.

According to the above construction, it is possible to select therecording medium by selecting the icon. Therefore, the selection of therecording medium becomes visually convenient.

Further, the above recording medium holder is such that a recordingmedium holder further includes a recording unit that includes arecording area for recording information temporarily, and that theselecting unit is further operable to record, when the selectedrecording medium is selected for a first time, the digital informationor the set of the digital information and the index information that arestored in the selected recording medium in the recording unit, and thedisplaying unit displays, when the selected recording medium is selectedfor a second time and later, the digital information or the indexinformation that are stored in the recording unit instead of theselected recording medium.

According to the above construction, when the same recording medium isselected more than once, the information recorded in the recordingmedium holder is displayed. Therefore, it is possible to make a periodof time required for processing shorter.

Further, the above recording medium holder is such that a recordingmedium holder further includes a text string input unit operable toaccept a text string; and a searching unit operable to, based on theinput text string, search the digital information stored in therecording medium held in the connection, and notifies a user of therecording medium storing the digital information that corresponds to theinput text string.

According to the above construction, the user is notified of therecording medium that stores information having the inputted textstring. Therefore, it is possible for the user to find out the desiredrecording medium.

Moreover, the present invention also is an electronic card systemstructured by one or more portable recording mediums that is readableand writable in a contactless state via radio waves, and a holdingdevice that holds the recording mediums such that the electronic cardsystem comprising the recording medium that includes an informationstoring unit operable to store digital information, and asending/receiving unit operable to transmit the digital information viaradio waves; and the holding device that includes a holding unitprovided with a medium holding plate and a plurality of sets that eachinclude a transmitting unit and a lighting unit, the medium holdingplate being divided into partitions of an identical number with thesets, the sets each being disposed so as to face a different one of thepartitions, the transmitting units each reading, via the radio waves,the digital information from the recording medium that is held on themedium holding plate so as to cover at least a part of the partitionthat faces the transmitting unit, and each outputting the digitalinformation to a controlling unit, and the lighting units each emittinglight under control of the controlling unit, the controlling unitoperable to receive the digital information, to generate displayinformation based on the generated display information and output thereceived digital information, and to control a lighting unitcorresponding to the transmitting unit that outputted the digitalinformation to emit light, and a displaying unit operable to receive anddisplay the display information.

According to the above construction, it is possible to select thedesired recording medium without an extra effort such as manuallyinserting the recording medium into the extracting apparatus.

Further, the above an electronic card system is such that the recordingmedium further includes an output unit operable to emit light, vibrate,or make sound, and the controlling unit further controls, upon receivingthe digital information, the output unit to emit light, vibrate, or makesound, via the radio waves through the transmitting unit and thesending/receiving unit.

According to the above construction, the desired recording medium emitslight, vibrates, or makes sounds, and therefore the desired recordingmedium can be easily identified.

Further, the above an electronic card system is such that thecontrolling unit further accepts search information from a user,identify the digital information which corresponds to the acceptedsearch information, and controls the lighting unit to emit light, thelighting unit facing the partition in which the recording medium storingthe identified digital information is held.

According to the above construction, light is emitted at the positionwhere the desired recording medium is placed, and therefore it ispossible for the user to identify the desired recording medium easily.

Although the present invention has been fully described by way ofexamples by referring to the accompanying drawings, it is to be notedthat various changes and modifications will be apparent to those skilledin the art. Therefore, unless otherwise such changes and modificationsdepart from the scope of the present invention, they should be construedas being included therein.

1. An electronic card system structured by one or more portablerecording mediums that is readable and writable in a contactless statevia radio waves, and a holding device that holds the recording mediums,the electronic card system comprising: the recording medium thatincludes an information storing unit operable to store digitalinformation, and a sending/receiving unit operable to transmit thedigital information via radio waves; and the holding device thatincludes a holding unit provided with a medium holding plate and aplurality of sets that each include a transmitting unit and a lightingunit, the medium holding plate being divided into partitions of anidentical number with the sets, the sets each being disposed so as toface a different one of the partitions, the transmitting units eachreading, via the radio waves, the digital information from the recordingmedium that is held on the medium holding plate so as to cover at leasta part of the partition that faces the transmitting unit, and eachoutputting the digital information to a controlling unit, and thelighting units each emitting light under control of the controllingunit, the controlling unit operable to receive the digital information,to generate display information based on the received digitalinformation and output the generated display information, and to controla lighting unit corresponding to the transmitting unit that has thedigital information to emit light, and a displaying unit operable toreceive and display the display information.
 2. An electronic cardsystem according to claim 1, wherein the recording medium furtherincludes an output unit operable to emit light, vibrate, or make sound,and the controlling unit further controls, upon receiving the digitalinformation, the output unit to emit light, vibrate, or make sound, viathe radio waves through the transmitting unit and the sending/receivingunit.
 3. An electronic card system according to claim 2, wherein thecontrolling unit further accepts search information from a user,identify the digital information which corresponds to the acceptedsearch information, and controls the lighting unit to emit light, thelighting unit facing the partition in which the recording medium storingthe identified digital information is held.
 4. A holding device capableof holding one or more portable recording mediums that is readable andwritable in a contactless state via radio waves, wherein the recordingmedium includes: an information storing unit operable to store digitalinformation; and a sending/receiving unit operable to transmit thedigital information via radio waves, and the holding device includes: aholding unit provided with a medium holding plate and a plurality ofsets that each include a transmitting unit and a lighting unit, themedium holding plate being divided into partitions of an identicalnumber with the sets, the sets each being disposed so as to face adifferent one of the partitions, the transmitting units each reading,via the radio waves, the digital information from the recording mediumthat is held on the medium holding plate so as to cover at least a partof the partition that faces the transmitting unit, and each outputtingthe digital information to a controlling unit, and the lighting unitseach emitting light under control of the controlling unit; thecontrolling unit operable to receive the digital information, togenerate display information based on the received digital informationand output the generated display information, and to control a lightingunit corresponding to the transmitting unit that has the digitalinformation to emit light; and a displaying unit operable to receive anddisplay the display information.
 5. A holding device according to claim4, wherein the recording medium further includes an output unit operableto emit light, vibrate, or make sound, and the controlling unit furthercontrols, upon receiving the digital information, the output unit toemit light, vibrate, or make sound, via the radio waves through thetransmitting unit and the sending/receiving unit.
 6. A holding deviceaccording to claim 5, wherein the controlling unit further acceptssearch information from a user, identify the digital information whichcorresponds to the accepted search information, and controls thelighting unit to emit light, the lighting unit facing the partition inwhich the recording medium storing the identified digital information isheld.